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Both inorganic nanoparticles and organic polymers offer unique advantages in the synthesis of materials with controllable properties (optical, magnetic, electrical) and chemical reactivities: polymers are highly modular structures that can incorporate many different chemical functional groups, and inorganic nanoparticles have size, shape, and material composition dependent properties such as surface plasmon resonances. Composites of these materials could result in powerful synthesis schemes for fabricating materials with controllable emergent properties, but a fundamental challenge in this area of research is developing self-assembly approaches to create polymer and nanoparticle composite materials where nanoscale order can be generated in a predictable and controllable manner. Research in the Macfarlane lab is focused on developing a set of design principles for synthesizing new inorganic/organic composite materials, where nanoscale structure can be manipulated to tune the emergent physical properties of a bulk material. These structures have the potential to significantly impact energy-related research via light manipulation (e.g. photonic band gaps or plasmonic metamaterials), electronic device fabrication (e.g. semiconducting substrates or data storage devices), and environmental and medical research (e.g. hydrogels for sustained drug delivery).
Both inorganic nanoparticles and organic polymers offer unique advantages in the synthesis of materials with controllable properties (optical, magnetic, electrical) and chemical reactivities: polymers are highly modular structures that can incorporate many different chemical functional groups, and inorganic nanoparticles have size, shape, and material composition dependent properties such as surface plasmon resonances. Composites of these materials could result in powerful synthesis schemes for fabricating materials with controllable emergent properties, but a fundamental challenge in this area of research is developing self-assembly approaches to create polymer and nanoparticle composite materials where nanoscale order can be generated in a predictable and controllable manner. Research in the Macfarlane lab is focused on developing a set of design principles for synthesizing new inorganic/organic composite materials, where nanoscale structure can be manipulated to tune the emergent physical properties of a bulk material. These structures have the potential to significantly impact energy-related research via light manipulation (e.g. photonic band gaps or plasmonic metamaterials), electronic device fabrication (e.g. semiconducting substrates or data storage devices), and environmental and medical research (e.g. hydrogels for sustained drug delivery).
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论文共 119 篇作者统计合作学者相似作者
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Griffen J. Desroches, Carl J. Thrasher, Nicholas S. Diaco, Ibrahim O. Raji,Dominik Konkolewicz, A. John Hart,Robert J. Macfarlane
ACS MATERIALS LETTERSno. 9 (2024): 4175-4182
JOURNAL OF POLYMER SCIENCEno. 4 (2024): 743-752
Carlos L. Bassani,Greg van Anders,Uri Banin,Dmitry Baranov,Qian Chen,Marjolein Dijkstra,Michael S. Dimitriyev,Efi Efrati,Jordi Faraudo,Oleg Gang,Nicola Gaston,Ramin Golestanian,G. Ivan Guerrero-Garcia,Michael Gruenwald,Amir Haji-Akbari,Maria Ibanez,Matthias Karg,Tobias Kraus,Byeongdu Lee,Reid C. Van Lehn,Robert J. Macfarlane,Bortolo M. Mognetti,Arash Nikoubashman,Saeed Osat,Oleg V. Prezhdo,Grant M. Rotskoff,Leonor Saiz,An-Chang Shi,Sara Skrabalak,Ivan I. Smalyukh,Mario Tagliazucchi,Dmitri V. Talapin,Alexei V. Tkachenko,Sergei Tretiak,David Vaknin,Asaph Widmer-Cooper,Gerard C. L. Wong,Xingchen Ye,Shan Zhou,Eran Rabani,Michael Engel,Alex Travesset
ACS NANOno. 23 (2024): 14791-14840
SOFT MATTERno. 34 (2024): 6723-6729
Journal of the American Chemical Society (2024)
Research Square (Research Square) (2024)
Somayajulu Dhulipala,Daryl W. Yee,Ziran Zhou,Rachel Sun, Josei E. Andrade,Robert J. Macfarlane,Carlos M. Portela
Nano lettersno. 11 (2023): 5155-5163
Journal of the American Chemical Societyno. 11 (2023): 6051-6056
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#Papers: 118
#Citation: 7218
H-Index: 36
G-Index: 84
Sociability: 6
Diversity: 0
Activity: 2
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